Khem-gz

ABSTRACT

Khem-gz is a self contained one time use, disposable, container. Made of plastic or metal and have a product and/or product container manufactured within it. Used to heat or cool products or a product within its own container. After the khem-gz is energized it will break the vacuum seal and chemical packages and begin start heating or cooling products. It will take about 10 seconds to 20 minutes for the chemical reaction to work and without the use of any other device. This is caused by the mixing of chemicals and air, located within the khem-gz container. After the cooled or heated (depending on the application) product is used, the entire khem-gz and product container is placed in trash disposal.

Khem-gz is a self contained one time use, disposable, container. Made of plastic or metal and have a product and/or product container manufactured within it. Used to heat or cool products or a product within its own container. After the khem-gz is energized it will break the vacuum seal and chemical packages and begin start heating or cooling products. It will take about 10 seconds to 20 minutes for the chemical reaction to work and without the use of any other device. This is caused by the mixing of chemicals and air, located within the khem-gz container. After the cooled or heated (depending on the application) product is used, the entire khem-gz and product container is placed in trash disposal.

A self contained deposable container used to heat or cool products. The container stores active chemical packages and an energizing assembly, that can be activated by hand, which will be referred to as khem-gz (B). The khem-gz container (B) is made of metal or plastic. A product container (A) will be manufactured within the khem-gz container (B). See FIG. 1.

The product container (A) has a dehydrated sponge sock (C) placed and held by elastic or rubber band (D) around it. The chemical packages (E) sits inside the sponge sock (C) at the bottom while the product container (A) rests on top of the chemical packages (E) within the sponge sock (C). See FIG. 2.

Product container (A) is then fixed into place by the locking washer (F) and the product container (A), the sponge sock (C), and chemical packs (E) rests upon a spring (H). The spring (H) is made from metal or plastic. The spring (H) holds the product container (A), sponge sock(C), and chemical packs (E) above the plungers (G). The plungers (G) are long slender pointed metal or plastic shafts. The locking washer (F) when not yet expanded and holds product container (A), sponge sock (C), and chemical packs (E) on top of the spring (H) above the plungers (G). There is a vacuum between the product container (A) and the khem-gz container (B). See FIG. 3.

In the very top of the khem-gz (B) is the location of an expandable plastic or rubber locking washer (F) used to hold the product container (A) in place before khem-gz (B) is activated. See FIGS. 1 and 5. After, khem-gz (B) is activated the locking washer expands, holding the product container (A) within the khem-gz container (B), thus, maintaining activation, and breaking the vacuum seal and allowing air to flow in. See FIGS. 4 and 6. The plungers (G) will pierce through the chemical packages (E), causing a spillage and the mixing of chemicals and air. The sponge sock (C) absorbs mixture while a chemical reaction is occurring. Dispose of after using the product.

The chemical ingredients used for heating are as follows: Activated charcoal, powdered iron, sodium chloride, sodium thiosulfate, and water. Or, activated charcoal, powdered iron, salt, vermiculite, and water can be used. The chemical ingredients used for cooling are as follows: Ammonium nitrate, and water. 

1. I Goreyorv L. Gunz claim to be the sole inventor of the device called khem-gz. This is a container that has chemicals stored in it and the product container is contained within it and sealed in a vacuum before activation.
 2. For a cold product, the chemicals used are as follows: Ammonium nitrate, and water. Chemicals for the cold application are water activated.
 3. For a hot product, the chemicals used are as follows: Activated charcoal, powdered iron, sodium chloride, sodium thiosulfate, and water. Chemicals for a hot application are air activated.
 4. For a hot product the chemicals used are as followed: Activated charcoal, powdered iron, salt, vermiculite, and water. Chemicals for the hot application are air activated. 